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Burn free

Ways to prevent and treat welding burns to the eyes and skin

Considering the amount of molten metal and high temperatures that are involved with arc welding, one of the occupational hazards is burns. The welding process emits UV radiation and involves sparks and spatter and hot parts that can burn exposed skin and damage unprotected eyes.

Arc eye, or welder’s flash, is an inflammation of the cornea, caused by the UV rays from the arc during welding. The symptoms, which appear a few hours to several hours after exposure, can include mild to severe pain, red watery eyes, sensitivity to light and the feeling of a foreign object in the eye. Typically, arc eye is temporary, but repeated or prolonged exposure can lead to permanent eye injury.

UV radiation can also affect exposed skin, causing “sunburn,” similar to the sunburns associated with overexposure to the sun’s UV rays. Longer exposure without protection can lead to second- and even third-degree burns. Burns to the skin can also occur if the welder touches preheated or welded parts or welding equipment, which may remain very hot for some time before or after welding.

While it’s easy to get burned during the welding process, and these burns are typically minor, most burns are avoidable if welders take the required precautions.

eye protection
The UV rays created during arc welding can cause arc eye, or welder’s flash. The proper helmet provides UV ray protection.

All about eyes

Those precautions require personal protective equipment (PPE). Key protections are called for in OSHA Standards 29 CFR Part 1910. Standard 1910.252 is the welding, cutting and brazing standard. This standard’s section (b)(2) specifies the eye protection that is required, such as helmets, goggles and face shields.

Also, OSHA 29 CFR 1910.133 states the requirements for eye and face protection. The standard refers to a specific filter lens protection for various types of welding in 1910.133(a)(5) and also states welder lenses must comply with the ANSI Z87.1 standard, the American National Standard for Occupational and Educational Personal Eye and Face Protection Devices.

The welding helmet is probably the most important piece of PPE a welder uses. The proper helmet has a viewing area that provides UV ray protection and covers the entire face to protect from sparks and spatter.

A welding helmet must have filter lenses with a shade number that provides the appropriate level of protection. The lens shade number (10 being brighter, 13 being darker) indicates the intensity of light radiation that is allowed to pass through a filter lens to the eyes. Therefore, the higher the shade number, the darker the filter and the less light radiation that passes through the lens.

welding ppe
The proper PPE prevents sparks from burning welder’s eyes and skin.

The lens shade number only denotes the amount of darkness provided by that particular lens and does not correspond to the amount of protection that is provided to the eyes. All quality welding lenses filter out 100 percent of the harmful UV and infrared (IR) rays to protect the eyes.

For welders who perform the same welding process repeatedly with a limited amperage range on the same materials, a fixed lens that is always darkened is sufficient. This type of helmet can be more difficult to use because a welder has to lift the hood up every time they want to prepare for welding or examine the weld and then flip the hood down again when it’s time to strike the arc.

Most welders, however, perform a variety of welding processes on a variety of materials. Therefore, a variable lens that is adjustable to the correct darkness for a particular process is a better solution. This allows welders to optimize the shade for greater comfort on any given application. For example, welding on thick materials at high amperages generally requires a higher shade number. Low-amperage welding is best performed with a low shade number to assure adequate visibility of the weld puddle.

The best protection from flash is an auto-darkening helmet, whether fixed or with variable controls, that operates through a series of two to four sensors. When a flash occurs, the auto-darkening helmet adapts to the brightness of the flash and darkens to almost any pre-selected shade number in milliseconds.

With auto-darkening helmets, welders can see clearly while the hood is already in a down position, so that setting up to weld can be done with the hood in position.

Thin skin

In addition to protecting their eyes, welders must also protect their skin. OSHA 29 CFR 1910.252 (b)(3) and 29 CFR 1910.132, the general OSHA PPE standard, address the correct PPE to prevent burning exposed skin.

Heavy, flame-resistant gloves should always be worn to protect hands and wrists from UV radiation and spatter and sparks emitted while welding. After welding, gloves should be kept on until the welder is done handling any hot metal parts and equipment in the workstation. There is a huge selection of material types (typically leather) and thicknesses for welding gloves.

Welding clothing is intended to protect the welder from sparks and spatter and high heat. For welding clothing, avoid synthetic fabrics because any sparks that land will catch fire and burn skin quickly. Because of its durability and resistance to fire, wool clothing is suggested over synthetics. Likewise, cotton clothing is another option.

A leather work jacket is a great option for welders who want to protect themselves from sparks and spatter. For warmer climates, many different kinds of flame-resistant jackets are available. Aprons and bibs are another choice to protect the neck, shoulders and chest.

Welding sleeves protect the welder’s arms from the armpit to the wrist and often can be connected to welding gloves. These provide adequate protection in low-volume welding. Welding sleeve fabric should be flame-resistant cotton, leather or Kevlar knit.

Heavy-duty leather boots with a high ankle keep feet safe. Pants should be left outside work boots, not tucked in, to keep sparks from falling into the boots. Shoe lace guards are even available for protection from sparks.

Welding hats or caps that cover the head, ears and neck also offer protection from high heat and sparks. Sparks falling into the ear canal is always a distinct possibility, especially when a welder is working at an odd angle. Flame-resistant earplugs are an option for this situation. In addition to protecting a welder from burns in and near the ear, they also provide noise protection from grinders and other equipment.

welding gloves
Heavy, flame-resistant gloves should always be worn to protect hands and wrists from UV radiation and spatter and sparks.

Treatment needed

Anyone that welds is going to get burned. Welders are a hardy bunch and many advise their colleagues to just “tough it out.” It’s important, however, to quickly treat a burn as opposed to working through the injury.

Contact burns caused from touching hot objects and flames should be cooled as quickly as possible to minimize tissue damage. UV radiation burns can be treated with over-the-counter creams. Severe burns should be treated by a medical professional to prevent possible infection.

In the case of the eyes, the effects of arc eye are only temporary and the symptoms generally clear up within a day or two. Keep eyes closed and avoid rubbing them to prevent further injury.

Some welders have found that strips of wet cloth on top of their closed eyes can be soothing after being flashed. In addition, it’s often recommended to sleep with eyes covered, wear sunglasses when going outside and refrain from wearing contact lenses until the eyes have completely healed.

It never hurts to seek medical attention in the case of arc eye. Treatment may involve pain medicine, antibiotic eye medication or dilating the pupils to relax the eye muscles, which, in turn, eases pain. Any vision problems or worsening eye pain needs to be evaluated by an eye doctor immediately.

OSHA Standards 29 CFR Part 1910